Aspen hysys on mac. Healthcare has always been a vital part of human life, and its significance will only continue to grow in the future; even today we can see life expectancy growing. LEGO® MINDSTORMS® Education EV3 Maker Activities – Middle School LEGOeducationcoMINDSTORMS LEGO, the LEGO logo, MINDSTORMS, the MINDSTORMS logo and the Mini gure are trademarks and/or copyrights of the/sont des marques de commerce et/ou copyrights du/son marcas registradas, algunas de ellas protegidas por derechos de autor, de LEGO Group.
• In this model, we will read the Accelrometer on-board Sense HAT. We will determine the motor speeds for the EV3 robot by using the acceleration data read from the Sense HAT Accelrometer. A network connection would be setup between the Raspberry Pi device and the EV3 robot for data exchange. • In this model, we would use the communication blocks of LEGO MINDSTORMS EV3 to recieve the data sent by Raspberry Pi. The data received will be used to drive the motors of the EV3 robot. This example would help you learn the following.
Working Principle of Robot movement control In this section, we will discuss how the acceleration data can be used to control the movement of the robot. The 'pitch' and 'roll' value corresponding to a given position of Sense HAT can be mathematically determined from the accelaration measured from the Accelerometer on-board Sense HAT. We map the 'pitch' and 'roll' movement of the Sense HAT to the movement of the EV3 robot. The 'pitch' would represent the forward and reverse movement of the motor whereas the 'roll' would represent the sideward movement of the robot. The mathematical equations required to convert the 'pitch' and 'roll' values to linear speed of the robot are realized using a MATLAB function block in the Simulink model for configured for Raspberry Pi. A communication link for data exchange is set up between Raspberry Pi and the EV3 brick. The linear motor speed derived from the pitch and roll values is sent over UDP from Raspberry Pi to EV3.
EV3 will receive this data and use it as input to drive the two motors. Task 1 - Familiarize with Controlling EV3 using Host model example shows usage of Dashboard widgets in a Simulink model running on a Host machine to control the movement of a EV3 robot. The communication between EV3 and the Host is over UDP. Complete this example to get familiarity with setting up a communication link between EV3 and a Host model for data exchange. Task 2 - Install Simulink Support Package for Raspberry Pi You need Simulink Support Package for Raspberry Pi to run Simulink model on Raspberry Pi hardware. Install Simulink Support Package for Raspberry Pi.
Click the link to 2. Complete the example in Simulink Support Package for Raspberry Pi you just installed. Task 3 - Familiarize with Sense HAT Accelerometer example shows usage of the Accelerometer on the Raspberry Pi Sense HAT. The acceleration data is used to auto-rotate an image displayed on the LED matrix of Sense HAT.
Complete this example to get familiarity with the usage of Accelerometer. Task 4 - Set up LEGO MINDSTORMS EV3 robot In this task, we will build a EV3 robot and connect the EV3 brick to the same network as the Host PC. Build a two-wheeled robot. You can build a robot similar to the one described in the printed building instructions in the education core set.
Set up a connection between EV3 brick and your host machine. Please refer to Task 1 and 2 in example. Task 4 - Configure Network Connection In this task, you will set up network connection between Raspberry Pi board and LEGO MINDSTORMS EV3. The communication protocol used in this example is UDP. Connect Raspberry Pi board to the network with Ethernet cable through Ethernet port.
Make sure that both the Raspberry Pi board, Host PC and the EV3 robot are connected to the same network. Verify the connection between your Raspberry Pi board and LEGO MINDSTORMS EV3. Execute the following command on the MATLAB command prompt. System(r, 'sudo ping 192.168.1.2 -c 10') 3. After verifying the connection, open the and update Send to EV3 block with the IP address of your EV3 hardware. Task 6 - Run models on Raspberry Pi hardware and LEGO MINDSTORMS EV3 robot In this task, we will run the models that we have developed on the respective hardware.
Aspen hysys on mac. Healthcare has always been a vital part of human life, and its significance will only continue to grow in the future; even today we can see life expectancy growing. LEGO® MINDSTORMS® Education EV3 Maker Activities – Middle School LEGOeducationcoMINDSTORMS LEGO, the LEGO logo, MINDSTORMS, the MINDSTORMS logo and the Mini gure are trademarks and/or copyrights of the/sont des marques de commerce et/ou copyrights du/son marcas registradas, algunas de ellas protegidas por derechos de autor, de LEGO Group.
• In this model, we will read the Accelrometer on-board Sense HAT. We will determine the motor speeds for the EV3 robot by using the acceleration data read from the Sense HAT Accelrometer. A network connection would be setup between the Raspberry Pi device and the EV3 robot for data exchange. • In this model, we would use the communication blocks of LEGO MINDSTORMS EV3 to recieve the data sent by Raspberry Pi. The data received will be used to drive the motors of the EV3 robot. This example would help you learn the following.
Working Principle of Robot movement control In this section, we will discuss how the acceleration data can be used to control the movement of the robot. The 'pitch' and 'roll' value corresponding to a given position of Sense HAT can be mathematically determined from the accelaration measured from the Accelerometer on-board Sense HAT. We map the 'pitch' and 'roll' movement of the Sense HAT to the movement of the EV3 robot. The 'pitch' would represent the forward and reverse movement of the motor whereas the 'roll' would represent the sideward movement of the robot. The mathematical equations required to convert the 'pitch' and 'roll' values to linear speed of the robot are realized using a MATLAB function block in the Simulink model for configured for Raspberry Pi. A communication link for data exchange is set up between Raspberry Pi and the EV3 brick. The linear motor speed derived from the pitch and roll values is sent over UDP from Raspberry Pi to EV3.
EV3 will receive this data and use it as input to drive the two motors. Task 1 - Familiarize with Controlling EV3 using Host model example shows usage of Dashboard widgets in a Simulink model running on a Host machine to control the movement of a EV3 robot. The communication between EV3 and the Host is over UDP. Complete this example to get familiarity with setting up a communication link between EV3 and a Host model for data exchange. Task 2 - Install Simulink Support Package for Raspberry Pi You need Simulink Support Package for Raspberry Pi to run Simulink model on Raspberry Pi hardware. Install Simulink Support Package for Raspberry Pi.
Click the link to 2. Complete the example in Simulink Support Package for Raspberry Pi you just installed. Task 3 - Familiarize with Sense HAT Accelerometer example shows usage of the Accelerometer on the Raspberry Pi Sense HAT. The acceleration data is used to auto-rotate an image displayed on the LED matrix of Sense HAT.
Complete this example to get familiarity with the usage of Accelerometer. Task 4 - Set up LEGO MINDSTORMS EV3 robot In this task, we will build a EV3 robot and connect the EV3 brick to the same network as the Host PC. Build a two-wheeled robot. You can build a robot similar to the one described in the printed building instructions in the education core set.
Set up a connection between EV3 brick and your host machine. Please refer to Task 1 and 2 in example. Task 4 - Configure Network Connection In this task, you will set up network connection between Raspberry Pi board and LEGO MINDSTORMS EV3. The communication protocol used in this example is UDP. Connect Raspberry Pi board to the network with Ethernet cable through Ethernet port.
Make sure that both the Raspberry Pi board, Host PC and the EV3 robot are connected to the same network. Verify the connection between your Raspberry Pi board and LEGO MINDSTORMS EV3. Execute the following command on the MATLAB command prompt. System(r, 'sudo ping 192.168.1.2 -c 10') 3. After verifying the connection, open the and update Send to EV3 block with the IP address of your EV3 hardware. Task 6 - Run models on Raspberry Pi hardware and LEGO MINDSTORMS EV3 robot In this task, we will run the models that we have developed on the respective hardware.